Why does light behave differently when reflecting off flat and curved surfaces?

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Discussion Overview

The discussion centers around the behavior of light when reflecting off flat versus curved surfaces, specifically addressing the conditions under which deflection occurs and the implications of total internal reflection. The scope includes conceptual understanding and technical explanations related to optics.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • One participant expresses confusion about the deflection of light when transitioning between flat and curved surfaces, seeking clarification on the underlying principles.
  • Another participant argues that the angle at which light strikes the surface, rather than the surface shape, determines deflection, stating that deflection occurs when the angle to the normal is greater than zero.
  • A later reply acknowledges a misunderstanding regarding deflection, noting that no deflection occurs when light exits a surface perpendicularly.
  • One participant introduces the concept of total internal reflection, questioning why brightness increases as the incident angle exceeds the critical angle.
  • Another participant explains that when light strikes the surface at an angle less than the critical angle, some light is reflected while most is refracted, and that total internal reflection occurs beyond the critical angle.
  • A subsequent comment reflects on the brightness of the refracted and reflected rays, questioning whether brightness reaches a maximum at the critical angle and how it changes beyond that point.
  • One participant asserts that if reflection is total, the angle of reflection should not affect the amount of light reflected, implying that all light is reflected regardless of the angle.

Areas of Agreement / Disagreement

Participants express differing views on the relationship between surface shape and light deflection, as well as the behavior of brightness in relation to critical angles. The discussion remains unresolved with multiple competing perspectives on these topics.

Contextual Notes

Some claims depend on specific definitions of angles and conditions for reflection and refraction, which may not be universally agreed upon. The discussion includes assumptions about the behavior of light that are not fully explored.

physicoo
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Hi all,

I am currently reading up on physics in regards to Light, but am still confused as to why

when light goes into a flat surface and comes out from a curved surface, there will be no deflection, and on the other hand

when light goes, first into a curved surface, and comes out from a flat surface, there will be a deflection of light.

can someone kindly explain to me why is this so?

Thanks! :)
 
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It's not whether the surface is curved or flat that matters, but the angle at which the light strikes the surface.
Deflection will occur when the angle (measured to the normal) is greater than zero, irrespective of the shape of the surface.
 
I've read up further and realized where I was wrong. It seems that only when the light is traveling out from a surface in a direction perpendicular to the surface, would there be no deflection.

However, as I advanced on, I read about total internal reflection but I do not understand how the brightness of the internally reflected light increases as the incident angle passes the critical angle. Could I get some advice on this?
 
When the light strikes the surface at an angle less than critical, although much of it is refracted and passes through the surface, some light is reflected.
When you pass the critical angle, all the light is reflected.
 
Interesting! I understand that the refracted ray is much brighter than the reflected ray when the incident angle is less than the critical.

However, when it reaches the critical angle, does the brightness not reach its optimum? I've always had this thought that when the incident angle = critical angle, brightness of internal reflected ray is maximum, and passing the critical angle would affect the brightness again.
 
If the reflection is "total" it shouldn't matter what the angle of reflexion is. All the light is refelected.
 

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